I provide Lesson Presentations for AQA GCSE and A-Level Physics.
All my lesson presentations have a learning objective and Lesson outcomes.
The outcomes are usually self differentiating based on ability level.
The lesson plans are not my own. I have used the lesson plans from a prominent company and converted them into useable lesson plans
I provide Lesson Presentations for AQA GCSE and A-Level Physics.
All my lesson presentations have a learning objective and Lesson outcomes.
The outcomes are usually self differentiating based on ability level.
The lesson plans are not my own. I have used the lesson plans from a prominent company and converted them into useable lesson plans
Lesson Objectives
Objective: To learn the basic structure of waves, the associated equations and terminology
Lesson Outcomes
Core: Define the terms frequency, period, amplitude and wavelength of a wave.
Challenge: Explain what is meant by phase and phase difference.
Aspire: Use the equation c= fL in calculations
Objective: To learn why circular motion is an accelerated motion and needs a centripetal force.
Lesson Outcomes
Core: Recall that circular motion is a system that is always accelerating
Challenge: Understand that circular motion requires a force that acts towards the centre of motion
Aspire: Analyse different areas systems to show the relationship between the different components of the circular motion equation.
Lesson Objective
To learn about forces, the work that they do and how to measure it.
Lesson Outcomes
Core level 4:
State that energy is measured in joules (J).
Calculate the work done by a force.
Measure the work done by a force experimentally.
Challenge level 6:
Describe the action of frictional forces on objects and the associated heating effect.
Use the equation for work done to calculate distances or size of forces.
Use repeat values to measure the work done by a force experimentally.
Aspire Level 8:
Use the principle of conservation of energy and forces to explain why objects become heated by frictional forces.
Apply the equation for work done in a wide range of contexts.
Evaluate in detail an experiment to measure work done, explaining why there is variation in the measurements.